APA
Earl, Julie & Galindo Pumarino, Cristina & Encinas, Jessica & Barreto, Emma & Castillo, María Encarnación & Pachon, Vanessa & Ferreiro, Reyes & Rodríguez Garrote, Mercedes & Gonzalez Martínez, Silvia & Ramon y Cajal, Teresa & Robles Diaz, Luis & Chirivella Gonzalez, Isabel & Rodriguez, Montse & Martínez de Castro, Eva & García Seisdedos, David & Munoz, Gloria & Rosa Rosa, Juan Manuel & Marquez, Mirari & Malats, Nuría & Carrato, Alfredo (2020-02 ) .A comprehensive analysis of candidate genes in familial pancreatic cancer families reveals a high frequency of potentially pathogenic germline variants.
ISO 690
Earl, Julie & Galindo Pumarino, Cristina & Encinas, Jessica & Barreto, Emma & Castillo, María Encarnación & Pachon, Vanessa & Ferreiro, Reyes & Rodríguez Garrote, Mercedes & Gonzalez Martínez, Silvia & Ramon y Cajal, Teresa & Robles Diaz, Luis & Chirivella Gonzalez, Isabel & Rodriguez, Montse & Martínez de Castro, Eva & García Seisdedos, David & Munoz, Gloria & Rosa Rosa, Juan Manuel & Marquez, Mirari & Malats, Nuría & Carrato, Alfredo. 2020-02 .A comprehensive analysis of candidate genes in familial pancreatic cancer families reveals a high frequency of potentially pathogenic germline variants.
https://hdl.handle.net/20.500.12080/39549
Abstract:
Background: The 5-year survival rate of patients with pancreatic ductal adenocarcinoma (PDAC) is around 5% due
to the fact that the majority of patients present with advanced disease that is treatment resistant. Familial pancreatic
cancer (FPC) is a rare disorder that is defined as a family with at least two affected first degree relatives, with an esti mated incidence of 4% 10%. The genetic basis is unknown in the majority of families although around 10% 13% of
families carry germline mutations in known genes associated with hereditary cancer and pancreatitis syndromes.
Methods: Panel sequencing was performed of 35 genes associated with hereditary cancer in 43 PDAC cases from
families with an apparent hereditary pancreatic cancer syndrome. Findings: Pathogenic variants were identified in
19% (5/26) of PDAC cases from pure FPC families in the genes MLH1, CDKN2A, POLQ and FANCM. Low frequency
potentially pathogenic VUS were also identified in 35% (9/26) of PDAC cases from FPC families in the genes FANCC,
MLH1, PMS2, CFTR, APC and MUTYH. Furthermore, an important proportion of PDAC cases harboured more than
one pathogenic, likely pathogenic or potentially pathogenic VUS, highlighting the multigene phenotype of FPC.
Interpretation: The genetic basis of familial or hereditary pancreatic cancer can be explained in 21% of families
by previously described hereditary cancer genes. Low frequency variants in other DNA repair genes are also
present in 35% of families which may contribute to the risk of pancreatic cancer development.